* Add members to bigip_gtm_pool
* Add monitors to bigip_gtm_pool
* Add availability_requirements to bigip_gtm_pool
* Refactor bigip_gtm_pool
* Normalize the product value returned by gtm facts
* Corrected various documentation
* Updated various F5 coding conventions
* Add partition to bigip_static_route
* Added more unit tests
* Refactor bigip_gtm_virtual_server
* Add translation_address to bigip_gtm_virtual_server
* Add translation_port to bigip_gtm_virtual_server
* Add availability_requirements to bigip_gtm_virtual_server
* Add monitors to bigip_gtm_virtual_server
* Add virtual_server_dependencies to bigip_gtm_virtual_server
* Add link to bigip_gtm_virtual_server
* Add limits to bigip_gtm_virtual_server
* Add partition to bigip_gtm_virtual_server
* Fix bigip_gtm_server to correctly create other server types
* Add type to virtual_server
* Add address_translation to virtual_server
* Add port_translation to virtual_server
* Add ip_protocol to virtual_server
* Add firewall_enforced_policy to virtual_server
* Add firewall_staged_policy to virtual_server
* Add security_log_profiles to virtual_server
* configurable list of facts modules
- allow for args dict for specific modules
- add way to pass parameters
- avoid facts poluting test
- move to 'facts gathered' flag
- add 'gathering' setting tests
Based on the documentation, 'wait_timeout' is 'Used in conjunction with instance_ids option'. This lead me to believe that I could not use this parameter to try and solve the 'Waited too long for ELB instances to be healthy' error I was experiencing.
This seems a little like duplicating code since all of the called
functions need it but prev_state isn't part of argument parsing so it
doesn't belong in the toplevel main() function.
It feels like this repeats itself because it pulls the creation of
a byte string for path into every state function. However, it actually
cleans the API by only passing a single parameter for a thing (the path)
instead of sending it in twice.
Well organized programs should only have a few successful exit points.
This commit moves all of the successful exit points for the file module
into the main() function. Other functions return their results to the
main function which can then choose whether there is more procesing to
do before exit or not.
Use an exception to return failures rather than fail_json(). This way
we can easily catch the failures if the calling code decides it can deal
with it. This has the side effect of making it easier to unittest this
code as we can catch the expected exceptions instead of having to catch
the interpreter exiting and then parse stdout for the expected data.
* Separate the logic for each state into separate functions
* Start the process of separating out initialization (pre-processing of
parameters that cannot be done via arg spec) from the logic to
implement each state.
* Start the process of raising exceptions for errors and returning
result values from each state implementing function Goal is for all
fail_json's to be consolidated into exception handlers at the toplevel
and for there to be only one exit_json() at the toplevel.
* Remove use of six.b as Python-2.6+ have byte literals.
* Make AnsibleModule a global object so we'll have access to it in all
the functions we're going to break this up into.
* Rework the parameters so things that are in file_common_args are used
from file_common_args or the reason for deviation is documented.
* Remove validate as a parameter: this should be taken care of by
removing it from params before the copy and template action plugin
invoke file.
* Rename diff_peek to _diff_peek as it is an internal parameter.
* add module_name execute_module call to assemble so that it is more greppable
* Removed forwarders parameter that did not work
* Updated coding conventions
* Added ssl_cipher_suite and ssl_protocols to bigip_device_httpd
* Added more unit tests